5.2.5 Efficient Binary-to-BCD Conversion

When working with LCDs, it is a common task to decompose decimal/binary numbers into BCD numbers before they can actually be displayed on the LCD as digits. This typically involves rather CPU-expensive divide-by-10 and associated modulo operations. However, BCD instructions built right into every MSP430 CPU can be used to offload much of the burden of BCD conversion into hardware, resulting in more power efficient and faster executing code. On the other hand, for applications such as RTCs it may be advantageous to maintain the numbers in BCD in software throughout the application, thus foregoing the need for expensive BCD conversions entirely. The BCD-handling CPU instructions can be accessed through the C compiler intrinsic function calls __bcd_add_short() and __bcd_add_long().

// This function implements an efficient decimal to binary conversion. // Note that a potential BCD overflow is not handled. In case this // is needed, the function's return value as well as the data type // of "Output" need to be changed from "unsigned int" to // "unsigned long" and the intrinsics to __bcd_add_long(...). unsigned int Dec2BCD(unsigned int Value) { unsigned int i; unsigned int Output; for (i = 16, Output = 0; i; i--) // BCD Conversion, 16-Bit { Output = __bcd_add_short(Output, Output); if (Value & 0x8000) Output = __bcd_add_short(Output, 1); Value <<= 1; } return Output; }

The RTC_A, RTC_B, and RTC_C modules on some devices include a selectable BCD format for storing the calendar mode information for seconds, minutes, hours, day, month, and year in a BCD format instead of in binary (hexadecimal). When using the LCD module to display clock or calendar information, it is useful to have the RTC running in this BCD mode so that no conversion is necessary to determine the digits for the LCD display so no additional overhead. The RTC_B and RTC_C modules additionally include a BIN2BCD register that can be used to convert a 12-bit binary number to a 16 bit BCD number in hardware. This again can save on software overhead – simply write the binary number into the register and then it can be read back in a BCD format. This can be useful for efficiently converting any binary number, not just RTC calendar information, for display on the LCD.